#ifndef ACL_PREPARE_COMPILE

#include "stdlib/acl_define.h"
#include <stdlib.h>
#include <stdio.h>
#include <stddef.h>
#include <string.h>
#include <time.h>
#include <errno.h>

#ifdef ACL_BCB_COMPILER
#pragma hdrstop
#endif

#include "stdlib/acl_sys_patch.h"
#include "stdlib/acl_mymalloc.h"
#include "stdlib/acl_mystring.h"
#include "stdlib/acl_msg.h"
#include "stdlib/acl_debug.h"
#include "stdlib/acl_vstream.h"
#include "stdlib/acl_iostuff.h"
#include "net/acl_sane_socket.h"
#include "event/acl_events.h"

#endif

#include "events_define.h"

#ifdef	ACL_EVENTS_POLL_STYLE
#include <sys/poll.h>
#include <unistd.h>

#include "events_fdtable.h"
#include "events.h"

typedef struct EVENT_POLL {
	ACL_EVENT event;
	struct pollfd *fds;
	ACL_FD_MAP *fdmap;
} EVENT_POLL;

static void stream_on_close(ACL_VSTREAM *stream, void *arg)
{
	EVENT_POLL *ev = (EVENT_POLL*) arg;
	ACL_EVENT_FDTABLE *fdp = (ACL_EVENT_FDTABLE*) stream->fdp;
	ACL_SOCKET sockfd = ACL_VSTREAM_SOCK(stream);
	int   ret = 0;

	if (fdp == NULL)
		return;

	if ((fdp->flag & EVENT_FDTABLE_FLAG_READ)
		&& (fdp->flag & EVENT_FDTABLE_FLAG_WRITE))
	{
		ret = 1;
	} else if ((fdp->flag & EVENT_FDTABLE_FLAG_READ)) {
		ret = 2;
	} else if ((fdp->flag & EVENT_FDTABLE_FLAG_WRITE)) {
		ret = 3;
	}

	if (ret) {
		acl_fdmap_del(ev->fdmap, sockfd);
	}

	if (ev->event.maxfd == ACL_VSTREAM_SOCK(fdp->stream))
		ev->event.maxfd = ACL_SOCKET_INVALID;
	if (fdp->fdidx >= 0 && fdp->fdidx < --ev->event.fdcnt) {
		ev->fds[fdp->fdidx] = ev->fds[ev->event.fdcnt];
		ev->event.fdtabs[fdp->fdidx] = ev->event.fdtabs[ev->event.fdcnt];
		ev->event.fdtabs[fdp->fdidx]->fdidx = fdp->fdidx;
	}
	fdp->fdidx = -1;

	if (fdp->fdidx_ready >= 0
		&& fdp->fdidx_ready < ev->event.ready_cnt
		&& ev->event.ready[fdp->fdidx_ready] == fdp)
	{
		ev->event.ready[fdp->fdidx_ready] = NULL;
	}
	fdp->fdidx_ready = -1;
	event_fdtable_free(fdp);
	stream->fdp = NULL;
}

static ACL_EVENT_FDTABLE *read_enable(ACL_EVENT *eventp, ACL_VSTREAM *stream,
	int timeout, ACL_EVENT_NOTIFY_RDWR callback, void *context)
{
	EVENT_POLL *ev = (EVENT_POLL *) eventp;
	ACL_SOCKET sockfd = ACL_VSTREAM_SOCK(stream);
	ACL_EVENT_FDTABLE *fdp = (ACL_EVENT_FDTABLE *) stream->fdp;

	if (fdp == NULL) {
		fdp = event_fdtable_alloc();
		fdp->stream = stream;
		stream->fdp = (void *) fdp;
		acl_vstream_add_close_handle(stream, stream_on_close, eventp);
		acl_fdmap_add(ev->fdmap, sockfd, fdp);
	}

	if (fdp->fdidx == -1) {
		fdp->fdidx = eventp->fdcnt;
		eventp->fdtabs[eventp->fdcnt++] = fdp;
	}

	if ((fdp->flag & EVENT_FDTABLE_FLAG_WRITE)) {
		fdp->flag |= EVENT_FDTABLE_FLAG_READ;
		ev->fds[fdp->fdidx].events |= POLLIN | POLLHUP | POLLERR;
	} else {
		fdp->flag = EVENT_FDTABLE_FLAG_READ | EVENT_FDTABLE_FLAG_EXPT;
		ev->fds[fdp->fdidx].events = POLLIN | POLLHUP | POLLERR;
	}

	ev->fds[fdp->fdidx].fd = sockfd;

	if (eventp->maxfd != ACL_SOCKET_INVALID && eventp->maxfd < sockfd)
		eventp->maxfd = sockfd;

	if (fdp->r_callback != callback || fdp->r_context != context) {
		fdp->r_callback = callback;
		fdp->r_context = context;
	}

	if (timeout > 0) {
		fdp->r_timeout = ((acl_int64) timeout) * 1000000;
		fdp->r_ttl = eventp->present + fdp->r_timeout;
	} else {
		fdp->r_ttl = 0;
		fdp->r_timeout = 0;
	}

	return fdp;
}

static void event_enable_listen(ACL_EVENT *eventp, ACL_VSTREAM *stream,
	int timeout, ACL_EVENT_NOTIFY_RDWR callback, void *context)
{
	ACL_EVENT_FDTABLE *fdp = read_enable(eventp, stream, timeout,
			callback, context);
#if defined(ACL_MACOSX)
	fdp->listener = 1;
#else
	fdp->listener = acl_is_listening_socket(ACL_VSTREAM_SOCK(stream));
#endif
}

static void event_enable_read(ACL_EVENT *eventp, ACL_VSTREAM *stream,
	int timeout, ACL_EVENT_NOTIFY_RDWR callback, void *context)
{
	ACL_EVENT_FDTABLE *fdp = read_enable(eventp, stream, timeout,
			callback, context);
	fdp->listener = acl_is_listening_socket(ACL_VSTREAM_SOCK(stream));
}

static void event_enable_write(ACL_EVENT *eventp, ACL_VSTREAM *stream,
	int timeout, ACL_EVENT_NOTIFY_RDWR callback, void *context)
{
	EVENT_POLL *ev = (EVENT_POLL *) eventp;
	ACL_SOCKET sockfd = ACL_VSTREAM_SOCK(stream);
	ACL_EVENT_FDTABLE *fdp = (ACL_EVENT_FDTABLE *) stream->fdp;

	if (fdp == NULL) {
		fdp = event_fdtable_alloc();

		fdp->stream = stream;
		stream->fdp = (void *) fdp;
		acl_vstream_add_close_handle(stream, stream_on_close, eventp);
		acl_fdmap_add(ev->fdmap, sockfd, fdp);
	}

	if (fdp->fdidx == -1) {
		fdp->fdidx = eventp->fdcnt;
		eventp->fdtabs[eventp->fdcnt++] = fdp;
	}

	if ((fdp->flag & EVENT_FDTABLE_FLAG_READ)) {
		fdp->flag |= EVENT_FDTABLE_FLAG_WRITE;
		ev->fds[fdp->fdidx].events |= POLLOUT | POLLHUP | POLLERR;
	} else {
		fdp->flag = EVENT_FDTABLE_FLAG_WRITE | EVENT_FDTABLE_FLAG_EXPT;
		ev->fds[fdp->fdidx].events = POLLOUT | POLLHUP | POLLERR;
	}

	ev->fds[fdp->fdidx].fd = sockfd;

	if (eventp->maxfd != ACL_SOCKET_INVALID && eventp->maxfd < sockfd)
		eventp->maxfd = sockfd;

	if (fdp->w_callback != callback || fdp->w_context != context) {
		fdp->w_callback = callback;
		fdp->w_context = context;
	}

	if (timeout > 0) {
		fdp->w_timeout = ((acl_int64) timeout) * 1000000;
		fdp->w_ttl = eventp->present + fdp->w_timeout;
	} else {
		fdp->w_ttl = 0;
		fdp->w_timeout = 0;
	}
}

/* event_disable_read - disable request for read events */

static void event_disable_read(ACL_EVENT *eventp, ACL_VSTREAM *stream)
{
	const char *myname = "event_disable_read";
	EVENT_POLL *ev = (EVENT_POLL *) eventp;
	ACL_SOCKET sockfd = ACL_VSTREAM_SOCK(stream);
	ACL_EVENT_FDTABLE *fdp = (ACL_EVENT_FDTABLE *) stream->fdp;

	if (fdp == NULL) {
		acl_msg_warn("%s(%d): fdp null", myname, __LINE__);
		return;
	}

	if (fdp->fdidx < 0 || fdp->fdidx >= eventp->fdcnt) {
		acl_msg_warn("%s(%d): sockfd(%d)'s fdidx(%d) invalid",
			myname, __LINE__, sockfd, fdp->fdidx);
		return;
	}

	if (!(fdp->flag & EVENT_FDTABLE_FLAG_READ)) {
		acl_msg_warn("%s(%d): sockfd(%d) not be set",
			myname, __LINE__, sockfd);
		return;
	}

	fdp->r_ttl = 0;
	fdp->r_timeout = 0;
	fdp->r_callback = NULL;
	fdp->event_type &= ~(ACL_EVENT_READ | ACL_EVENT_ACCEPT);
	fdp->flag &= ~EVENT_FDTABLE_FLAG_READ;

	if ((fdp->flag & EVENT_FDTABLE_FLAG_WRITE)) {
		ev->fds[fdp->fdidx].events = POLLOUT | POLLHUP | POLLERR;
		return;
	}

	if (eventp->maxfd == sockfd)
		eventp->maxfd = ACL_SOCKET_INVALID;

	if (fdp->fdidx < --eventp->fdcnt) {
		ev->fds[fdp->fdidx] = ev->fds[eventp->fdcnt];
		eventp->fdtabs[fdp->fdidx] = eventp->fdtabs[eventp->fdcnt];
		eventp->fdtabs[fdp->fdidx]->fdidx = fdp->fdidx;
	}
	fdp->fdidx = -1;

	if (fdp->fdidx_ready >= 0
		&& fdp->fdidx_ready < eventp->ready_cnt
		&& eventp->ready[fdp->fdidx_ready] == fdp)
	{
		eventp->ready[fdp->fdidx_ready] = NULL;
	}
	fdp->fdidx_ready = -1;

	acl_fdmap_del(ev->fdmap, sockfd);
}

/* event_disable_write - disable request for write events */

static void event_disable_write(ACL_EVENT *eventp, ACL_VSTREAM *stream)
{
	const char *myname = "event_disable_write";
	EVENT_POLL *ev = (EVENT_POLL *) eventp;
	ACL_SOCKET sockfd = ACL_VSTREAM_SOCK(stream);
	ACL_EVENT_FDTABLE *fdp = (ACL_EVENT_FDTABLE *) stream->fdp;

	if (fdp == NULL) {
		acl_msg_warn("%s(%d): fdp null", myname, __LINE__);
		return;
	}

	if (fdp->fdidx < 0 || fdp->fdidx >= eventp->fdcnt) {
		acl_msg_warn("%s(%d): sockfd(%d)'s fdidx(%d) invalid",
			myname, __LINE__, sockfd, fdp->fdidx);
		return;
	}

	if (!(fdp->flag & EVENT_FDTABLE_FLAG_WRITE)) {
		acl_msg_warn("%s(%d): sockfd(%d) not be set",
			myname, __LINE__, sockfd);
		return;
	}

	fdp->w_ttl = 0;
	fdp->w_timeout = 0;
	fdp->w_callback = NULL;
	fdp->event_type &= ~(ACL_EVENT_WRITE | ACL_EVENT_CONNECT);
	fdp->flag &= ~EVENT_FDTABLE_FLAG_WRITE;

	if ((fdp->flag & EVENT_FDTABLE_FLAG_READ)) {
		ev->fds[fdp->fdidx].events = POLLIN | POLLHUP | POLLERR;
		return;
	}

	if (eventp->maxfd == sockfd)
		eventp->maxfd = ACL_SOCKET_INVALID;

	if (fdp->fdidx < --eventp->fdcnt) {
		ev->fds[fdp->fdidx] = ev->fds[eventp->fdcnt];
		eventp->fdtabs[fdp->fdidx] = eventp->fdtabs[eventp->fdcnt];
		eventp->fdtabs[fdp->fdidx]->fdidx = fdp->fdidx;
	}
	fdp->fdidx = -1;

	if (fdp->fdidx_ready >= 0
		&& fdp->fdidx_ready < eventp->ready_cnt
		&& eventp->ready[fdp->fdidx_ready] == fdp)
	{
		eventp->ready[fdp->fdidx_ready] = NULL;
	}
	fdp->fdidx_ready = -1;

	acl_fdmap_del(ev->fdmap, sockfd);
}

/* event_disable_readwrite - disable request for read or write events */

static void event_disable_readwrite(ACL_EVENT *eventp, ACL_VSTREAM *stream)
{
	const char *myname = "event_disable_readwrite";
	EVENT_POLL *ev = (EVENT_POLL *) eventp;
	ACL_EVENT_FDTABLE *fdp = (ACL_EVENT_FDTABLE *) stream->fdp;
	ACL_SOCKET sockfd  = ACL_VSTREAM_SOCK(stream);

	if (fdp == NULL) {
		return;
	}

	if (fdp->flag == 0 || fdp->fdidx < 0 || fdp->fdidx >= eventp->fdcnt) {
		acl_msg_warn("%s(%d): sockfd(%d) no set, fdp no null",
			myname, __LINE__, sockfd);
		acl_fdmap_del(ev->fdmap, sockfd);
		event_fdtable_free(fdp);
		stream->fdp = NULL;
		return;
	}

	if (eventp->maxfd == sockfd)
		eventp->maxfd = ACL_SOCKET_INVALID;

	if (fdp->fdidx < --eventp->fdcnt) {
		ev->fds[fdp->fdidx] = ev->fds[eventp->fdcnt];
		eventp->fdtabs[fdp->fdidx] = eventp->fdtabs[eventp->fdcnt];
		eventp->fdtabs[fdp->fdidx]->fdidx = fdp->fdidx;
	}
	fdp->fdidx = -1;

	if (fdp->fdidx_ready >= 0
		&& fdp->fdidx_ready < eventp->ready_cnt
		&& eventp->ready[fdp->fdidx_ready] == fdp)
	{
		eventp->ready[fdp->fdidx_ready] = NULL;
	}
	fdp->fdidx_ready = -1;

	acl_fdmap_del(ev->fdmap, sockfd);
	event_fdtable_free(fdp);
	stream->fdp = NULL;
}

static void event_loop(ACL_EVENT *eventp)
{
	const char *myname = "event_loop";
	EVENT_POLL *ev = (EVENT_POLL *) eventp;
	ACL_EVENT_TIMER *timer;
	int   nready, i, revents;
	acl_int64 delay;
	ACL_EVENT_FDTABLE *fdp;

	delay = eventp->delay_sec * 1000000 + eventp->delay_usec;
	if (delay < DELAY_MIN)
		delay = DELAY_MIN;

	/* 调整事件引擎的时间截 */

	SET_TIME(eventp->present);

	/* 根据定时器任务的最近任务计算 poll 的检测超时上限 */

	if ((timer = ACL_FIRST_TIMER(&eventp->timer_head)) != 0) {
		acl_int64 n = timer->when - eventp->present;
		if (n <= 0)
			delay = 0;
		else if (n < delay)
			delay = n;
	}

	/* 调用 event_prepare 检查有多少个描述字需要通过 poll 进行检测 */

	if (event_prepare(eventp) == 0) {
		/* 说明无须 poll 检测 */

		if (eventp->ready_cnt == 0)
			/* 为避免循环过快，休眠一下 */
			acl_doze(delay > DELAY_MIN ? (int) delay / 1000 : 1);

		goto TAG_DONE;
	}

	/* 如果已经有描述字准备好则 poll 检测超时时间置 0 */

	if (eventp->ready_cnt > 0)
		delay = 0;

	/* 调用 poll 系统调用检测可用描述字 */

	nready = poll(ev->fds, eventp->fdcnt, (int) (delay / 1000));

	if (eventp->nested++ > 0) {
		acl_msg_error("%s(%d): recursive call", myname, __LINE__);
		exit (1);
	}
	if (nready < 0) {
		if (acl_last_error() != ACL_EINTR) {
			acl_msg_error("%s(%d), %s: select: %s", __FILE__,
				__LINE__, myname, acl_last_serror());
			exit (1);
		}
		goto TAG_DONE;
	} else if (nready == 0)
		goto TAG_DONE;

	/* 检查 poll 的检测结果集合 */

	for (i = 0; i < eventp->fdcnt; i++) {
		fdp = acl_fdmap_ctx(ev->fdmap, ev->fds[i].fd);
		if (fdp == NULL || fdp->stream == NULL)
			continue;

		/* 如果该描述字对象已经在被设置为异常或超时状态则继续 */

		if ((fdp->event_type & (ACL_EVENT_XCPT | ACL_EVENT_RW_TIMEOUT)))
			continue;

		revents = ev->fds[i].revents;

		/* 检查描述字是否出现异常 */

		if ((revents & (POLLHUP | POLLERR)) != 0) {
			fdp->event_type |= ACL_EVENT_XCPT;
			fdp->fdidx_ready = eventp->ready_cnt;
			eventp->ready[eventp->ready_cnt++] = fdp;
			continue;
		}

		/* 检查描述字是否可读 */

		if ((fdp->flag & EVENT_FDTABLE_FLAG_READ)
			&& (revents & POLLIN) )
		{
			/* 给该描述字对象附加可读属性 */
			if ((fdp->event_type & (ACL_EVENT_READ
				| ACL_EVENT_WRITE)) == 0)
			{
				fdp->event_type |= ACL_EVENT_READ;
				fdp->fdidx_ready = eventp->ready_cnt;
				eventp->ready[eventp->ready_cnt++] = fdp;
			}

			if (fdp->listener)
				fdp->event_type |= ACL_EVENT_ACCEPT;

			/* 该描述字可读则设置 ACL_VSTREAM 的系统可读标志从而
			 * 触发 ACL_VSTREAM 流在读时调用系统的 read 函数
			 */
			else
				fdp->stream->read_ready = 1;
		}

		/* 检查描述字是否可写 */

		if ((fdp->flag & EVENT_FDTABLE_FLAG_WRITE)
			&& (revents & POLLOUT))
		{

			/* 给该描述字对象附加可写属性 */

			if ((fdp->event_type & (ACL_EVENT_READ
				| ACL_EVENT_WRITE)) == 0)
			{
				fdp->event_type |= ACL_EVENT_WRITE;
				fdp->fdidx_ready = eventp->ready_cnt;
				eventp->ready[eventp->ready_cnt++] = fdp;
			}
		}
	}

TAG_DONE:

	event_timer_trigger(eventp);

	/* 处理准备好的描述字事件 */
	if (eventp->ready_cnt > 0)
		event_fire(eventp);

	eventp->nested--;
}

static int event_isrset(ACL_EVENT *eventp acl_unused, ACL_VSTREAM *stream)
{
	ACL_EVENT_FDTABLE *fdp = (ACL_EVENT_FDTABLE *) stream->fdp;

	return fdp == NULL ? 0 : (fdp->flag & EVENT_FDTABLE_FLAG_READ);
}

static int event_iswset(ACL_EVENT *eventp acl_unused, ACL_VSTREAM *stream)
{
	ACL_EVENT_FDTABLE *fdp = (ACL_EVENT_FDTABLE *) stream->fdp;

	return fdp == NULL ? 0 : (fdp->flag & EVENT_FDTABLE_FLAG_WRITE);

}

static int event_isxset(ACL_EVENT *eventp acl_unused, ACL_VSTREAM *stream)
{
	ACL_EVENT_FDTABLE *fdp = (ACL_EVENT_FDTABLE *) stream->fdp;

	return fdp == NULL ? 0 : (fdp->flag & EVENT_FDTABLE_FLAG_EXPT);
}

static void event_free(ACL_EVENT *eventp)
{
	EVENT_POLL *ev = (EVENT_POLL *) eventp;

	acl_fdmap_free(ev->fdmap);
	acl_myfree(ev->fds);
	acl_myfree(ev);
}

ACL_EVENT *event_new_poll(int fdsize)
{
	ACL_EVENT *eventp;
	EVENT_POLL *ev;

	eventp = event_alloc(sizeof(EVENT_POLL));

	snprintf(eventp->name, sizeof(eventp->name), "events - poll");

	eventp->event_mode           = ACL_EVENT_POLL;
	eventp->use_thread           = 0;
	eventp->loop_fn              = event_loop;
	eventp->free_fn              = event_free;
	eventp->enable_read_fn       = event_enable_read;
	eventp->enable_write_fn      = event_enable_write;
	eventp->enable_listen_fn     = event_enable_listen;
	eventp->disable_read_fn      = event_disable_read;
	eventp->disable_write_fn     = event_disable_write;
	eventp->disable_readwrite_fn = event_disable_readwrite;
	eventp->isrset_fn            = event_isrset;
	eventp->iswset_fn            = event_iswset;
	eventp->isxset_fn            = event_isxset;
	eventp->timer_request        = event_timer_request;
	eventp->timer_cancel         = event_timer_cancel;
	eventp->timer_keep           = event_timer_keep;
	eventp->timer_ifkeep         = event_timer_ifkeep;

	ev = (EVENT_POLL*) eventp;
	ev->fds = (struct pollfd *)
		acl_mycalloc(fdsize + 1, sizeof(struct pollfd));
	ev->fdmap = acl_fdmap_create(fdsize);
	return eventp;
}
#endif	/* ACL_EVENTS_POLL_STYLE */
